BUREAU OF LOCAL ROADS AND STREETS MANUAL
Chapter 32
GEOMETRIC DESIGN TABLES
(New Construction/Reconstruction)
BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32(i)
Chapter 32
GEOMETRIC DESIGN TABLES
(New Construction/Reconstruction)
Table of Contents
Section Page
32-1 GENERAL ............................................................................................................. 32-1-1 32-2 GEOMETRIC DESIGN CRITERIA ......................................................................... 32-2-1 32-3 ALIGNMENT CRITERIA ........................................................................................ 32-3-1 32-4 ACRONYMS.......................................................................................................... 32-4-1 32-5 REFERENCES ...................................................................................................... 32-5-1
BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-1-1
Chapter 32
GEOMETRIC DESIGN TABLES
(New Construction/Reconstruction)
32-1 GENERAL
This Chapter presents summary tables of the design criteria for the geometric design of local
projects. They apply to new construction and reconstruction projects. The designer should
consider the following in the use of these tables:
1. Functional Classification. The selection of design values depends on the functional
classification of the highway facility. Functional classification is discussed in Section
27-3. The first step in the design process is to determine the functional classification of
the proposed improvement. If the classification is unknown, contact the local Illinois
Department of Transportation (IDOT) district office.
2. Manual Section References. These tables are intended to provide a concise listing of
design values for easy use. However, the designer should review the Manual section
reference for more information on the design elements.
3. Footnotes. The tables include many footnotes, which are identified by a number in
parentheses (e.g., (3)). The information in the footnote is critical to the proper use of
these design tables.
4. Cross Section Elements. The designer should realize that some of the cross section
elements included in a table (e.g., median width) are not automatically warranted in the
project design. The values in the tables will only apply after the decision has been made
to include the element in the highway cross section.
5. Bridge Elements. Design criteria for bridge elements are provided in Chapter 36.
6. Controlling Design Criteria. Controlling design criteria are the elements judged to be the
most critical indicators of highway safety and overall serviceability. The tables provide
an asterisk to indicate controlling design criteria. Section 27-7 discusses this in more
detail and presents the process for approving design variances to controlling criteria.
7. Local Public Agency (LPA) Criteria. Illinois counties and cities may have developed their
own geometric design criteria for local facilities. It may be acceptable to use the local
agency criteria where there are conflicts with the criteria listed in this Manual. This
decision will be made on a case-by-case basis or can be approved as an agency
variance acceptable for all projects.
BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-2-1
32-2 GEOMETRIC DESIGN CRITERIA
This Section presents the new construction/reconstruction geometric design criteria for various
local facilities. Design criteria are provided for the following facilities:
Figure 32-2A “Geometric Design Criteria for Rural Two-Lane Minor Arterials,”
Figure 32-2B “Geometric Design Criteria for Rural Two-Lane Collectors,”
Figure 32-2C “Geometric Design Criteria for Rural Two-Lane Local Roads,”
Figure 32-2D “Geometric Design Criteria for Suburban Arterials,”
Figure 32-2E “Geometric Design Criteria for Urban Two-Way Arterials,”
Figure 32-2F “Geometric Design Criteria for Urban One-Way Arterials,”
Figure 32-2G “Geometric Design Criteria for Urban Two-Way Collectors,”
Figure 32-2H “Geometric Design Criteria for Urban One-Way Collectors,” and
Figure 32-2I “Geometric Design Criteria for Urban Local Streets.”
For criteria on local rural two-lane principal arterials, the designer should review the criteria in
Chapter 47 of the Bureau of Design and Environment (BDE) Manual. Local rural two-lane
principal arterial projects should be brought to early coordination for discussion.
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Design Volume (Two-Way DHV)
New Construction / Reconstruction
DHV < 1050 (2)
20 Years
100 km/h (3a)
90 km/h (3a)
Controlled by Regulations (4)
C
7.2 m
High Type Pavement
3.0 m
1.2 m Paved w/ Remainder Aggregate
3.6 m
1.2 m (Paved)
4.2 m
1.5% (5a)
Paved 4% / Aggregate 6% (5b)
8%
1V:6H
1.2 m (6)
<3.0 m 1V:3H
>3.0 m 1V:2H (7)
1V:0.25H
1V:6H to Clear Zone (8)
1V:3H (max) to Toe of Slope (8)
DHV = Design Hourly Volume
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE MINOR ARTERIALS (New Construction/Reconstruction)
Figure 32-2A (US Customary / Metric)
60 mph (3a)
55 mph (3a)
24’
10’
4’ Paved w/ Remainder Aggregate
12’
4’ (Paved)
14’
4’ (6)
<10’ 1V:3H
>10’ 1V:2H (7)
Manual
Section
27-6.02
27-5.02
35-1
BDE
27-6.04
31-1.01
Chapter
44
31-1.06
31-1.03
31-1.05
31-1.08
31-2.03
31-2.04
* Controlling design criteria (see Section 27-7).
Design Element
Design Forecast Year
Level
Rolling
Access Control
Level of Service (LOS) *
Traveled Way Width *
Surface Type
Shoulder Width *
Shoulder Type
Lane Width
Shoulder Width
Flush / TWLTL Widths
Travel Lane *
Shoulder
Rollover Factor
Front Slope
Ditch Width
Back Slope
Rock Cut
Fill Section
Cut Section
Minimum
Design Speed * (1a)
Auxiliary Lanes *
Cross Slope
Side Slope (Maximum)
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BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-2-3
Footnotes:
(1) Design Criteria. The criteria for the minimum cross-section elements allowed to remain in place (see Chapter 33)
provided it is cost effective and the safety record is satisfactory.
(2) Traffic Volumes. The design hourly volumes (DHV) assumes base conditions (except for 8% heavy vehicles) and
a PHF = 1 for LOS shown. Adjust these values according to the actual factors. Section 27-6 further discusses
capacity methodology and traffic volumes.
(3) Design Speed.
a. In rolling terrain, a minimum design speed of 55 mph (90 km/h) may be considered with study and
justification.
b. To determine the minimum design speed allowed to remain in place, consider the following:
i. Existing horizontal curves may remain in place provided they have a comfortable operating
speed of 60 mph (100 km/h) (level) or 50 mph (80 km/h) (rolling) and there is no history of
crashes.
ii. Existing sag vertical curves may remain in place if they have a design speed of 50 mph (80 km/h)
or greater and do not have a history of crashes. If not, reconstruct the sag vertical curve to a
design speed of 60 mph (100 km/h).
iii. Existing crest vertical curves may remain in place if they have a design speed of 50 mph (80
km/h) or greater and do not have a history of crashes. If not, reconstruct the crest vertical curve
to a design speed of 60 mph (100 km/h).
iv. Consider the relationship between horizontal and vertical alignments simultaneously to obtain a
desirable condition. Chapter 33 of the BDE Manual discusses these relationships and their effect
on aesthetics and safety.
(4) Access Control. For bypass routes on new alignment, design the roadway with partial access control. See
Section 35-1 of the BDE Manual.
(5) Cross Slopes.
a. Cross slopes for outside auxiliary lanes will be at least 2.0% and should be 0.5% greater than the
adjacent travel lane.
b. Where an aggregate shoulder is part of the shoulder width, slope the aggregate portion of the shoulder
at 6%.
(6) Ditch Bottom Width. Provide a wider outside ditch bottom where detention storage of storm water is a
consideration.
(7) Back Slope. Where the height of cut exceeds 10 ft (3.0 m), consider using a 1V:2H back slope beyond the clear
zone. Also, for heights of cut greater than 30 ft (9.0 m), consider the use of benching.
(8) Fill Slope. For fill heights greater than 30 ft (9.0 m), use a 1V:2H uniform slope with a roadside barrier. Also, for
heights greater than 30 ft (9.0 m), consider the use of benching.
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE MINOR ARTERIALS
(New Construction/Reconstruction)
Footnotes to Figure 32-2A
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Design Volume (ADT)
ADT > 2000
20 Years
60 mph
50 mph
C
24’ (2)
High Type Pavement
8’ (4b)
Aggregate or Paved (5b)
Desired 12’
Minimum 11’
Desired 8’
Minimum 4’
1.5% - 2.0%
Aggregate 4% - 6% / Paved 4%
8%
1V:4H
Minimum 2’
<15’ 1V:4H
15’ - 25’ 1V:3H
>25’ 1V:2H
1V:0.25H
<25’ 1V:4H
>25’ 1V:2H
ADT = Average Daily Traffic
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE COLLECTORS (New Construction/Reconstruction)
Figure 32-2B (US Customary)
750 to 2000
50 mph
40 mph (1b)
22’
6’ (4b)
Desired 11’
Minimum 10’
Desired 6’
Minimum 4’
1V:3H
<10’ 1V:3H
>10’ 1V:2H
<10’ 1V:3H
>10’ 1V:2H
400 to 750
50 mph (1b)
4’ (4b)
Turf or Aggregate (5a)
4’
Turf 5% - 8% / Aggregate 4% - 6%
10%
ADT < 400
Current
40 mph (1b)
30 mph (1b)
20’
Aggregate Surface
or Bituminous
Treated (3)
2’ (4a)
10’
2’
2.0% - 4% (6b)
<10’ 1V:3H (7)
>10’ 1V:2H (7)
<6’ 1V:3H
>6’ 1V:2H
Manual
Section
27-6.02
27-5.02
27-6.04
31-1.01
Chapter
44
31-1.06
31-1.03
31-1.08
31-2.03
31-2.04
* Controlling design criteria (see Section 27-7).
Design Element
Design Forecast Year
Level
Rolling
Level of Service (LOS) *
Traveled Way Width *
Surface Type
Shoulder Width *
Shoulder Type
Lane Width
Shoulder Width
Travel Lane * (6a)
Shoulder
Rollover Factor
Front Slope
Ditch Width
Back Slope
Rock Cut
Fill Section
Cut Section
Minimum
Design Speed * (1a)
Auxiliary Lanes *
Cross Slope
Side Slope (Maximum)
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Design Volume (ADT)
ADT > 2000
20 Years
100 km/h
80 km/h
C
7.2 m (2)
High Type Pavement
2.4 m (4b)
Aggregate or Paved (5b)
Desired 3.6 m
Minimum 3.3 m
Desired 2.4 m
Minimum 1.2 m
1.5% - 2.0%
Aggregate 4% - 6% / Paved 4%
8%
1V:4H
Minimum 600 mm
<4.5 m 1V:4H
4.5 - 7.5 m 1V:3H
>7.5 m 1V:2H
1V:0.25H
<7.5 m 1V:4H
>7.5 m 1V:2H
ADT = Average Daily Traffic
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE COLLECTORS (New Construction/Reconstruction)
Figure 32-2B (Metric)
750 to 2000
80 km/h
60 km/h (1b)
6.6 m
1.8 m (4b)
Desired 3.3 m
Minimum 3.0 m
Desired 1.8 m
Minimum 1.2 m
1V:3H
<3.0 m 1V:3H
>3.0 m 1V:2H
<3.0 m 1V:3H
>3.0 m 1V:2H
400 to 750
80 km/h (1b)
1.2 m (4b)
Turf or Aggregate (5a)
1.2 m
Turf 5% - 8% / Aggregate 4% - 6%
10%
ADT < 400
Current
60 km/h (1b)
50 km/h (1b)
6.0 m
Aggregate Surface
or Bituminous
Treated (3)
600 mm (4a)
3.0 m
600 mm
2.0% - 4% (6b)
<3.0 m 1V:3H (7)
>3.0 m 1V:2H (7)
<1.8 m 1V:3H
>1.8 m 1V:2H
Manual
Section
27-6.02
27-5.02
27-6.04
31-1.01
Chapter
44
31-1.06
31-1.03
31-1.08
31-2.03
31-2.04
* Controlling design criteria (see Section 27-7).
Design Element
Design Forecast Year
Level
Rolling
Level of Service (LOS) *
Traveled Way Width *
Surface Type
Shoulder Width *
Shoulder Type
Lane Width
Shoulder Width
Travel Lane * (6a)
Shoulder
Rollover Factor
Front Slope
Ditch Width
Back Slope
Rock Cut
Fill Section
Cut Section
Minimum
Design Speed * (1a)
Auxiliary Lanes *
Cross Slope
Side Slope (Maximum)
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BUREAU OF LOCAL ROADS & STREETS
32-2-6 GEOMETRIC DESIGN TABLES August 2016
Footnotes:
(1) Design Speed.
a. A rural collector may pass through a relatively built-up area. In these sections, a lower design speed may be
selected with justification. However, the selected design speed should not be less than 30 mph (50 km/h).
Consider the following:
i. For low to moderate density areas, the design speed may be reduced 5 mph to 10 mph (10 km/h) below
the listed design speed.
ii. For moderate to high density areas, the design speed may be reduced 10 mph to 15 mph (10 km/h to
20 km/h) below the listed design speed.
b. For rural bridge projects, the design speed may be increased to the posted or regulatory speed limit to avoid
a deficient NBIS rating for approach roadway alignment appraisal. All elements of the project will be
designed to the chosen design speed. The chosen design speed will be certified by the County Engineer.
(2) Traveled Way Width. On a reconstruction project, an existing 22 ft (6.6 m) traveled way width may be
maintained where the alignment and safety records are satisfactory.
(3) Surface Type. A high-type pavement is desirable.
(4) Shoulder Width.
a. Where roadside barriers are included, provide a minimum offset of 4 ft (1.2 m) from the edge of the traveled
way to the roadside barrier. When the 4 ft (1.2 m) width cannot be met because of a proposed or an existing
bridge width (see Section 36-5), Section 35-4 shall be followed to flare the roadside barrier until the 4 ft (1.2
m) width is met or until the length of need is exceeded.
b. Where the rural collector passes through a moderate to high density area, the shoulder width may be 4 ft
(1.2 m). This width may include the width of Type B gutter or the gutter flag with curb and gutter at the
outside edge of the shoulder.
(5) Shoulder Type.
a. Aggregate shoulders may consist of a nominal 4 in (100 mm) thickness where the ADT is less than 750
vehicles/day.
b. For ADT’s > 750 vehicles/day, an aggregate shoulder should be a minimum thickness of 6 in (150 mm) Type
A shoulders.
(6) Cross Slopes.
a. Cross slopes for outside auxiliary lanes will be at least 2.0% and should be 0.5% greater than the adjacent
travel lane. Inside auxiliary lane cross slopes are sloped at 1.5% to 2.0% with high-type pavements.
b. Use 1.5% to 2.0% with high-type pavement.
(7) Back Slopes. For isolated restricted right-of-way, the back slope may be 1V:2H for cut depths of 0 ft to 10 ft (0 m
to 3 m) or 1V:1.5H for cut depths greater than 10 ft (3 m).
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE COLLECTORS
(New Construction/Reconstruction)
Footnotes to Figure 32-2B
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Design Volume (ADT)
ADT > 2000
20 Years
50 mph
40 mph (1d)
D
24’ (2b)
High Type Pavement
8’ (4b)
Aggregate, Paved, or Comb. (5b)
Desired 12’
Minimum 11’
Desired 8’
Minimum 4’
1.5% - 2.0%
Aggregate 4% - 6% / Paved 4%
8%
1V:4H
Minimum 2’
<15’ 1V:4H
15 - 25’ 1V:3H
>25’ 1V:2H
1V:0.25H
<25’ 1V:4H
>25’ 1V:2H
ADT = Average Daily Traffic
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE LOCAL ROADS (New Construction/Reconstruction)
Figure 32-2C (US Customary)
750 to 2000
22’
6’ (4b)
Desired 11’
Minimum 10’
Desired 6’
Minimum 4’
1V:3H
<10’ 1V:3H
>10’ 1V:2H
<10’ 1V:3H
>10’ 1V:2H
400 to 750
4’ (4b)
Turf or Aggregate (5a)
Desired 4’
Minimum 2’
Turf 5% - 8% / Aggregate 4% - 6%
10%
250 to 400
Current
40 mph (1d)
30 mph (1d)
20’
Aggregate Surface
or Bituminous Treated (3)
2’ (4a)
10’
2’
2.0% - 4% (6b)
<10’ 1V:3H
>10’ 1V:2H
(7b)
<6’ 1V:3H
>6’ 1V:2H
ADT < 250
30 mph (1c/d)
30 mph (1b-d)
18 (2a)
Turf
N/A
N/A
Turf 5% - 8%
1V:3H (7a)
Desired 2’
<10’ 1V:3H
>10’ 1V:2H
(7a/b)
Manual
Section
27-6.02
27-5.02
27-6.04
31-1.01
Chapter
44
31-1.06
31-1.03
31-1.08
31-2.03
31-2.04
* Controlling design criteria (see Section 27-7).
Design Element
Design Forecast Year
Level
Rolling
Level of Service (LOS) *
Traveled Way Width *
Surface Type
Shoulder Width *
Shoulder Type
Lane Width
Shoulder Width
Travel Lane *
Shoulder
Rollover Factor
Front Slope
Ditch Width
Back Slope
Rock Cut
Fill Section
Cut Section
Minimum
Design Speed * (1)
Auxiliary Lanes *
Cross Slope (6a)
Side Slope (Maximum)
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Design Volume (ADT)
ADT > 2000
20 Years
80 km/h
60 km/h (1d)
D
7.2 m (2b)
High Type Pavement
2.4 m (4b)
Aggregate, Paved, or Comb. (5b)
Desired 3.6 m
Minimum 3.0 m
Desired 2.4 m
Minimum 1.2 m
1.5% - 2.0%
Aggregate 4% - 6% / Paved 4%
8%
1V:4H
Minimum 0.6 m
<4.5 m 1V:4H
4.5 - 7.5 m
1V:3H
>7.5 m 1V:2H
1V:0.25H
<7.5 m 1V:4H
>7.5 m 1V:2H
ADT = Average Daily Traffic
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE LOCAL ROADS (New Construction/Reconstruction)
Figure 32-2C (Metric)
750 to 2000
6.6 m
1.8 m (4b)
Desired 3.3 m
Minimum 3.0 m
Desired 1.8 m
Minimum 1.2 m
1V:3H
<3.0 m 1V:3H
>3.0 m 1V:2H
<3.0 m 1V:3H
>3.0 m 1V:2H
400 to 750
1.2 m (4b)
Turf or Aggregate (5a)
Desired 1.2 m
Minimum 0.6 m
Turf 5% - 8% / Aggregate 4% - 6%
10%
250 to 400
Current
60 km/h (1d)
50 km/h (1d)
6.0 m
Aggregate Surface
or Bituminous Treated (3)
0.6 m (4a)
3.0 m
0.6 m
2.0% - 4% (6b)
<3.0 m 1V:3H
>3.0 m 1V:2H
(7b)
<1.8 m 1V:3H
>1.8 m 1V:2H
ADT < 250
50 km/h (1c/d)
50 km/h (1b-d)
5.4 m (2a)
Turf
N/A
N/A
Turf 5% - 8%
1V:3H (7a)
Desired 0.6 m
<3.0 m 1V:3H
>3.0 m 1V:2H
(7a/b)
Manual
Section
27-6.02
27-5.02
27-6.04
31-1.01
Chapter
44
31-1.06
31-1.03
31-1.08
31-2.03
31-2.04
* Controlling design criteria (see Section 27-7).
Design Element
Design Forecast Year
Level
Rolling
Level of Service (LOS) *
Traveled Way Width *
Surface Type
Shoulder Width *
Shoulder Type
Lane Width
Shoulder Width
Travel Lane *
Shoulder
Rollover Factor
Front Slope
Ditch Width
Back Slope
Rock Cut
Fill Section
Cut Section
Minimum
Design Speed * (1)
Auxiliary Lanes *
Cross Slope (6a)
Side Slope (Maximum)
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BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-2-9
Footnotes:
(1) Design Speed.
a. A rural local road may pass through a relatively built-up area. In these areas, for highway projects with no
bridges, a lower design speed may be selected with justification. However, the selected design speed
should not be less than 20 mph (30 km/h). Consider the following:
i. For low to moderate density areas, the design speed may be reduced 5 mph to 10 mph (10 km/h) below
the listed design speed.
ii. For moderate to high density areas, the design speed may be reduced 10 mph to 15 mph (10 km/h to
20 km/h) below the listed design speed.
b. For highway projects with no bridges with ADT’s less than 50 vehicles/day, the design speed may be 20
mph (30 km/h).
c. For projects constructed with no bridges, other than Federal funds on the district road system with ADT’s
less than 150 vehicles/day, no design speed is required.
d. For rural bridge projects, minimum design speed shall be as determined by the ADT. However, the design
speed may be increased to the posted or regulatory speed limit to avoid a deficient NBIS rating for approach
roadway alignment appraisal. All elements of the project will be designed to the chosen design speed. The
chosen speed will be certified by the County Engineer.
(2) Traveled Way Width.
a. For projects constructed with other than Federal funds on the district road system with ADT’s less than 150
vehicles/day, the minimum width is 16 ft (4.8 m).
b. On a reconstruction project, an existing 22 ft (6.6 m) traveled way may be maintained where the alignment
and safety records are satisfactory.
(3) Surface Type. A high-type pavement may be provided.
(4) Shoulder Width.
a. Where roadside barriers are included, provide a minimum offset of 4 ft (1.2 m) from the edge of the traveled
way to the roadside barrier. When the 4 ft (1.2 m) width cannot be met because of a proposed or an existing
bridge width (see Section 36-5), Section 35-4 shall be followed to flare the roadside barrier until the 4 ft (1.2
m) width is met or until the length of need is exceeded.
b. Where the rural local road passes through a moderate to high density area, the shoulder width may be
4 ft (1.2 m). This width may include the width of Type B gutter or the gutter flag with curb and gutter at the
edge of the shoulder.
(5) Shoulder Type.
a. Aggregate shoulders may consist of a nominal 4 in (100 mm) thickness where the ADT is less than 750
vehicles/day.
b. For ADT’s > 750 vehicles/day, an aggregate shoulder should be a minimum thickness of 6 in (150 mm) Type
A shoulders.
(6) Cross Slopes.
a. Cross slopes for outside auxiliary lanes will be at least 2.0% and should be 0.5% greater than the adjacent
travel lane.
b. Use 1.5% to 2.0% for high-type pavement.
(7) Side Slopes.
a. For district road systems constructed with other than Federal funds, front slopes may be 1V:2H and back
slopes may be 1V:1.5H.
b. For isolated restricted right-of-way, the back slope may be 1V:2H for cut depths of 0 ft to 10 ft (0 m to 3 m)
or 1V:1.5H for cut depths greater than 10 ft (3 m).
GEOMETRIC DESIGN CRITERIA FOR RURAL TWO-LANE LOCAL ROADS
(New Construction/Reconstruction)
Footnotes to Figure 32-2C
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Design Volume (DHV)
Two-Way
DHV 2050 - 2900 (1)
TWS-6
20 Years
40 mph – 50 mph
C
6
12’
See Section 42-3.02
8’ Paved
6’ (4’ Paved)
Single Left & Right 12’
Dual Lefts & Rights 24’
Shoulder 4’ and/or B-6.24 CC&G (4)
1.5% - 2.0%
(5b)
Range 4’ to 14’
Desired 12’
Range 10’ to 14’
16’
18’
Desired 5’ / Minimum 4’
1V:4H
1V:0.25H
1V:4H
1.5%
1.5%
5% (Towards C&G)
DHV = Design Hourly Volume / TWS = Two-Way Street
GEOMETRIC DESIGN CRITERIA FOR SUBURBAN ARTERIALS
(New Construction/Reconstruction)
Figure 32-2D (US Customary)
Two-Way
DHV 1250 - 2050 (1)
TWS-4
4
Two-Way
DHV < 1250 (1)
TWS-2
2
N/A
N/A
N/A
N/A
N/A
N/A
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.06
31-1.03
31-1.08
31-1.05
31-2.02
31-2.03
31-1.05
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed * (2)
Level of Service (LOS) *
Number of Travel Lanes
Traveled Way Width *
Traveled Lane Width
(Shared with Bicycles)
Right
Left
Lane Width
Shoulder / Curb Type and Width
Travel Lane (Minimum) *
Auxiliary Lane
Flush
Flush (TWLTL)
Traversable
Raised Curb
Sidewalk Width
Cut Section (Uncurbed)
Rock Cut
Fill Section (Uncurbed)
Concrete Surface / Traversable
Flush / TWLTL Surface
Grass/ Landscape Surface
Traveled Way
Shoulder Width * (3)
Auxiliary Lanes *
Cross Slope (5a)
Median Width
Side Slope
(Maximum)
Median Slope
Desig
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Ro
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Slo
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1
Design Volume (DHV)
Two-Way
DHV 2050 - 2900 (1)
TWS-6
20 Years
60 km/h – 80 km/h
C
6
3.6 m
See Section 42-3.02
2.4 m Paved
1.8 m (1.2 m Paved)
Single Left & Right 3.6 m
Dual Lefts & Rights 7.2 m
Shoulder 1.2 m and/or B-15.60 CC&G (4)
1.5% - 2.0%
(5b)
Range 1.2 m to 4.2 m
Desired 3.6 m
Range 3.0 m to 4.2 m
4.8 m
5.5 m
Desired 1.5 m / Minimum 1.2 m
1V:4H
1V:0.25H
1V:4H
1.5%
1.5%
5% (Towards C&G)
DHV = Design Hourly Volume / TWS = Two-Way Street
GEOMETRIC DESIGN CRITERIA FOR SUBURBAN ARTERIALS
(New Construction/Reconstruction)
Figure 32-2D (Metric)
Two-Way
DHV 1250 - 2050 (1)
TWS-4
4
Two-Way
DHV < 1250 (1)
TWS-2
2
N/A
N/A
N/A
N/A
N/A
N/A
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.06
31-1.03
31-1.08
31-1.05
31-2.02
31-2.03
31-1.05
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed * (2)
Level of Service (LOS) *
Number of Travel Lanes
Traveled Way Width *
Traveled Lane Width
(Shared with Bicycles)
Right
Left
Lane Width
Shoulder / Curb Type and Width
Travel Lane (Minimum) *
Auxiliary Lane
Flush
Flush (TWLTL)
Traversable
Raised Curb
Sidewalk Width
Cut Section (Uncurbed)
Rock Cut
Fill Section (Uncurbed)
Concrete Surface / Traversable
Flush / TWLTL Surface
Grass/ Landscape Surface
Traveled Way
Shoulder Width * (3)
Auxiliary Lanes *
Cross Slope (5a)
Median Width
Side Slope
(Maximum)
Median Slope
Desig
n
Co
ntro
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Cro
ss
Se
ctio
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lem
en
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Ro
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Slo
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BUREAU OF LOCAL ROADS & STREETS
32-2-12 GEOMETRIC DESIGN TABLES August 2016
Footnotes:
(1) Traffic Volumes. The design hourly volumes (DHV) are calculated using a PHF = 1.0; these values may be
adjusted using local peak-hour factors. For more information, see the Highway Capacity Manual (HCM).
(2) Design Speed. A 60 mph (100 km/h) design speed may be considered in open-suburban areas.
(3) Shoulder Width.
a. Concrete Curb & Gutter (CC&G) may be placed on the outside edge of the shoulder, especially if sidewalks
will be placed along the shoulder. The gutter flag may be included in the shoulder width.
b. Where the design speed is 45 mph (70 km/h) or less, the shoulder may be replaced with a B-6.24 (B-15.60)
CC&G.
(4) Auxiliary Lane. Under restricted conditions, the gutter width adjacent to the edge of the turn lane may be
narrowed or eliminated adjacent to a 12 ft (3.6 m) turn lane.
(5) Cross Slope.
a. Use 2.0% minimum cross slopes for travel lanes not adjacent to the crown.
b. Curbed left-turn lanes may be sloped at 1.5% to 2.0% away from the median. Two Way Left Turn Lane
(TWLTL) and flush left-turn lanes are sloped at the same rate as the adjacent traveled way. Cross slopes
for outside auxiliary lanes will be at least 2.0% and desirably should be 0.5% greater than the adjacent travel
lane.
GEOMETRIC DESIGN CRITERIA FOR SUBURBAN ARTERIALS (New Construction/Reconstruction)
Footnotes for Figure 32-2D
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3
Design Volume (DHV)
Two-Way
DHV 2050 - 2900 (1)
TWS-6
20 Years
30 mph – 40 mph
C
6
Desired 12’
Minimum 11’
See Section 42-3.02
Desired 10’
Minimum 8’
Single Left & Right – Desired 12’ / Minimum 11’
Dual Lefts & Rights – Desired 24’ / Minimum 22’
1.5% - 2.0% (5a)
(5b)
B-6.12, B-6.18, or B-6.24 CC&G (6)
Range 4’ to 14’
Desired 12’
Range 10’ to 14’
16’
18’
Desired 5’ / Minimum 4’
1.5’
---
---
---
1.5%
1.5%
5% (Towards C&G)
DHV = Design Hourly Volume / TWS = Two-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN TWO-WAY ARTERIALS
(New Construction/Reconstruction)
Figure 32-2E (US Customary)
Two-Way
DHV 1250 - 2050 (1)
TWS-4
4
Two-Way
DHV < 1250 (1)
TWS-2
2
Desired 12’
Minimum 11’ (3)
1.5% - 2.0%
2.0% (5b)
N/A
N/A
N/A
N/A
N/A
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-1.05
31-2.02
35-2
31-2.03
31-1.05
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed *
Level of Service (LOS) * (2)
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (4)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Flush
Flush (TWLTL)
Traversable
Raised Curb
Sidewalk Width (7)
Obstruction Free Zone * (8)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Concrete Surface / Traversable
Flush / TWLTL Surface
Grass/ Landscape Surface
Surface Width *
Cross Slope
Median Width
Side Slope (9)
(Maximum)
Median Slope
Desig
n
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ntro
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Cro
ss
Se
ctio
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lem
en
ts
Ro
ad
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Slo
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Design Volume (DHV)
Two-Way
DHV 2050 - 2900 (1)
TWS-6
20 Years
50 km/h – 60 km/h
C
6
Desired 3.6 m
Minimum 3.3 m
See Section 42-3.02
Desired 3.0 m
Minimum 2.4 m
Single Left & Right – Desired 3.6 m / Minimum 3.3 m
Dual Lefts & Rights – Desired 7.2 m / Minimum 6.6 m
1.5% - 2.0% (5a)
(5b)
B-15.30, B-15.45, or B-15.60 CC&G (6)
Range 1.2 m to 4.2 m
Desired 3.6 m
Range 3.0 m to 4.2 m
4.8 m
5.5 m
Desired 1.5 m / Minimum 1.2 m
450 mm
---
---
---
1.5%
1.5%
5% (Towards C&G)
DHV = Design Hourly Volume / TWS = Two-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN TWO-WAY ARTERIALS
(New Construction/Reconstruction)
Figure 32-2E (Metric)
Two-Way
DHV 1250 - 2050 (1)
TWS-4
4
Two-Way
DHV < 1250 (1)
TWS-2
2
Desired 3.6 m
Minimum 3.3 m (3)
1.5% - 2.0%
2.0% (5b)
N/A
N/A
N/A
N/A
N/A
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-1.05
31-2.02
35-2
31-2.03
31-1.05
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed *
Level of Service (LOS) * (2)
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (4)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Flush
Flush (TWLTL)
Traversable
Raised Curb
Sidewalk Width (7)
Obstruction Free Zone * (8)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Concrete Surface / Traversable
Flush / TWLTL Surface
Grass/ Landscape Surface
Surface Width *
Cross Slope
Median Width
Side Slope (9)
(Maximum)
Median Slope
Desig
n
Co
ntro
ls
Cro
ss
Se
ctio
n E
lem
en
ts
Ro
ad
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Slo
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s
BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-2-15
Footnotes:
(1) Traffic Volumes. The design hourly volumes (DHV) are calculated using a PHF = 1.0; these values may be
adjusted using local peak-hour factors. For more information, see the Highway Capacity Manual.
(2) Level of Service (LOS). A LOS D may be used in heavily developed sections of metropolitan areas.
(3) Surface Width. The minimum surface width is 30 ft (9.0 m) face-of-curb to face-of-curb.
(4) Parking Lane Width. The desirable width of the parking lane is 10 ft (3.0 m) and includes the gutter width. If the
parking lane may be used as future travel lane, the 10 ft (3.0 m) width should be in addition to the gutter width.
An 8 ft (2.4 m) width may be used where it is unlikely the parking lane will be used as through or turning lane in
the future.
(5) Cross Slope.
a. Use 2.0% minimum cross slopes for travel lanes not adjacent to the crown.
b. Curbed left-turn lanes may be sloped at 1.5% to 2.0% away from the median. Two Way Left Turn Lane
(TWLTL) and flush left-turn lanes are sloped at the same rate as the adjacent traveled way. Cross slopes
for outside auxiliary lanes will be at least 2.0% and desirably should be 0.5% greater than the adjacent travel
lane.
(6) Gutter Width. Under restricted conditions, the gutter width adjacent to the edge of a 12 ft (3.6 m) turn lane may
be eliminated.
(7) Sidewalk Width. Include a 2 ft to 3 ft (600 mm to 1.0 m) buffer strip between the curb and sidewalk. For
sidewalks without a buffer strip, a minimum 6 ft (1.8 m) sidewalk width behind the curb must be provided.
(8) Obstruction-Free Zone. Distance is measured from the face of the curb. Hazards behind curbs should be
located outside of the clear zone shown for uncurbed roadways as discussed in Section 35-2.02(f).
(9) Side Slopes. Side slopes to be determined on a case-by-case basis considering roadside development and
right-of-way restrictions.
GEOMETRIC DESIGN CRITERIA FOR URBAN TWO-WAY ARTERIALS (New Construction/Reconstruction)
Footnotes for Figure 32-2E
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Design Volume (DHV)
One-Way
DHV > 1850 (1)
OWS-4
20 Years
30 mph – 40 mph
C
4
Desired 12’
Minimum 11’
See Section 42-3.02
Desired 10’
Minimum 8’
Single Left & Right – Desired 12’ / Minimum 11’
Dual Lefts & Rights – Desired 24’ / Minimum 22’
1.5% (4a)
(4b)
B-6.12, B-6.18, or B-6.24 CC&G (5)
Desired 5’ / Minimum 4’
1.5’
---
---
---
DHV = Design Hourly Volume / OWS = One-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN ONE-WAY ARTERIALS
(New Construction/Reconstruction)
Figure 32-2F (US Customary)
One-Way
DHV 1300 - 1850 (1)
OWS-3
3
One-Way
DHV < 1300 (1)
OWS-2
2
2.0% (4b)
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed *
Level of Service (LOS) * (2)
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (3)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Sidewalk Width (6)
Obstruction Free Zone * (7)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Side Slope (8)
(Maximum)
Desig
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Cro
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Se
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Ro
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Slo
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7
Design Volume (DHV)
One-Way
DHV > 1850 (1)
OWS-4
20 Years
50 km/h – 60 km/h
C
4
Desired 3.6 m
Minimum 3.3 m
See Section 42-3.02
Desired 3.0 m
Minimum 2.4 m
Single Left & Right – Desired 3.6 m / Minimum 3.3 m
Dual Lefts & Rights – Desired 7.2 m / Minimum 6.6 m
1.5% (4a)
(4b)
B-15.30, B-15.45, or B-15.60 CC&G (5)
Desired 1.5 m / Minimum 1.2 m
450 mm
---
---
---
DHV = Design Hourly Volume / OWS = One-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN ONE-WAY ARTERIALS
(New Construction/Reconstruction)
Figure 32-2F (Metric)
One-Way
DHV 1300 - 1850 (1)
OWS-3
3
One-Way
DHV < 1300 (1)
OWS-2
2
2.0% (4b)
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed *
Level of Service (LOS) * (2)
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (3)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Sidewalk Width (6)
Obstruction Free Zone * (7)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Side Slope (8)
(Maximum)
Desig
n
Co
ntro
ls
Cro
ss
Se
ctio
n E
lem
en
ts
Ro
ad
way
S
lop
es
BUREAU OF LOCAL ROADS & STREETS
32-2-18 GEOMETRIC DESIGN TABLES August 2016
Footnotes:
(1) Traffic Volumes. The design hourly volumes (DHV) are calculated using a PHF = 1.0; these values may be
adjusted using local peak-hour factors. For more information, see the Highway Capacity Manual.
(2) Level of Service (LOS). A LOS D may be used in heavily developed sections of metropolitan areas.
(3) Parking Lane Width. The desirable width of the parking lane is 10 ft (3.0 m) and includes the gutter width. If the
parking lane may be used as a future travel lane, the 10 ft (3.0 m) width should be in addition to the gutter flag.
An 8 ft (2.4 m) width may be used where it is unlikely the parking lane will be used as through or turning lane in
the future.
(4) Cross Slope.
a. Use 2.0% minimum cross slopes for travel lanes not adjacent to the crown.
b. Cross slopes for outside auxiliary lanes will be at least 2.0% and desirably should be 0.5% greater than the
adjacent travel lane.
(5) Gutter Width. Under restricted conditions, the gutter width adjacent to the edge of a 12 ft (3.6 m) turn lane may
be eliminated.
(6) Sidewalk Width. Include a 2 ft to 3 ft (600 mm to 1.0 m) buffer strip between the curb and sidewalk. For
sidewalks without a buffer strip, a minimum 6 ft (1.8 m) sidewalk width behind the curb must be provided.
(7) Obstruction-Free Zone. Distance is measured from the face of the curb. Hazards behind curbs should be
located outside of the clear zone shown for uncurbed roadways as discussed in Section 35-2.02(f).
(8) Side Slopes. Side slopes are determined on a case-by-case basis considering roadside development and right-
of-way restrictions.
GEOMETRIC DESIGN CRITERIA FOR URBAN ONE-WAY ARTERIALS
(New Construction/Reconstruction)
Footnotes for Figure 32-2F
BU
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9
Design Volume (ADT / DHV)
Two-Way
DHV 1400 - 2400 (1)
TWS-4
20 Years
30 mph – 40 mph
Desired C / Minimum D
4
Desired 12’
Minimum 10’
See Section 42-3.02
Desired 10’
Minimum 8’
Desired 12’
Minimum 10’
1.5% - 2.0% (5a)
(5b)
B-6.12, B-6.18, or B-6.24 CC&G (6)
4’
Desired 12’
Range 10’ to 14’
Desired 5’ / Minimum 4’
1.5’
---
---
---
ADT = Average Daily Traffic / DHV = Design Hourly Volume / TWS = Two-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN TWO-WAY COLLECTORS
(New Construction/Reconstruction)
Figure 32-2G (US Customary)
Two-Way
ADT > 5000
and DHV < 1400 (1)
TWS-2
2
Desired 12’
Minimum 10’ (3)
1.5% - 2.0%
N/A
Two-Way
ADT < 5000
Current
30 mph
Desired 11’
Minimum 10’
Minimum 8’
Desired 11’
Minimum 10’
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-1.05
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed * (2)
Level of Service (LOS) *
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (4)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Flush
Flush (TWLTL)
Sidewalk Width (7)
Obstruction Free Zone * (8)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Median Width
Side Slope (9)
(Maximum)
Desig
n
Co
ntro
ls
Cro
ss
Se
ctio
n E
lem
en
ts
Ro
ad
way
Slo
pes
BU
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32
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0
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Design Volume (ADT / DHV)
Two-Way
DHV 1400 - 2400 (1)
TWS-4
20 Years
50 km/h – 60 km/h
Desired C / Minimum D
4
Desired 3.6 m
Minimum 3.0 m
See Section 42-3.02
Desired 3.0 m
Minimum 2.4 m
Desired 3.6 m
Minimum 3.0 m
1.5% - 2.0% (5a)
(5b)
B-15.30, B-15.45, or B-15.60 CC&G (6)
1.2 m
Desired 3.6 m
Range 3.0 m to 4.2 m
Desired 1.5 m / Minimum 1.2 m
450 mm
---
---
---
ADT = Average Daily Traffic / DHV = Design Hourly Volume / TWS = Two-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN TWO-WAY COLLECTORS
(New Construction/Reconstruction)
Figure 32-2G (Metric)
Two-Way
ADT > 5000
and DHV < 1400 (1)
TWS-2
2
Desired 3.6 m
Minimum 3.0 m (3)
1.5% - 2.0%
N/A
Two-Way
ADT < 5000
Current
50 km/h
Desired 3.3 m
Minimum 3.0 m
Minimum 2.4 m
Desired 3.3 m
Minimum 3.0 m
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-1.05
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed * (2)
Level of Service (LOS) *
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (4)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Flush
Flush (TWLTL)
Sidewalk Width (7)
Obstruction Free Zone * (8)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Median Width
Side Slope (9)
(Maximum)
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BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-2-21
Footnotes:
(1) Travel Volumes. The design hourly volumes (DHV) are calculated using a PHF = 1.0; these values may be
adjusted using local peak-hour factors. For more information, see the Highway Capacity Manual.
(2) Design Speed. A 45 mph (70 km/h) design speed may be used in fringe areas and outlying business districts.
(3) Surface Width. The minimum surface width is 30 ft (9.0 m) face-of-curb to face-of-curb.
(4) Parking Lane. The minimum width of the parking lane is 8 ft (2.4 m) and includes the gutter width.
(5) Cross Slope.
a. Use 2.0% minimum cross slopes for travel lanes not adjacent to the crown.
b. Curbed left-turn lanes may be sloped at 1.5% to 2.0% away from the median. Two Way Left Turn Lane
(TWLTL) and flush left-turn lanes are sloped at the same rate as the adjacent traveled way. Cross slopes
for outside auxiliary lanes will be at least 2.0% and desirably should be 0.5% greater than the adjacent travel
lane.
(6) Gutter Width. Under restricted conditions, the gutter width adjacent to the edge of a 12 ft (3.6 m) turn lane may
be eliminated.
(7) Sidewalk Width. Include a 2 ft to 3 ft (600 mm to 1.0 m) buffer strip between the curb and sidewalk. For
sidewalks without a buffer strip, a minimum 6 ft (1.8 m) sidewalk width behind the curb must be provided.
(8) Obstruction-Free Zone. Distance is measured from the face of the curb. Hazards behind curbs should be
located outside of the clear zone shown for uncurbed roadways as discussed in Section 35-2.02(f).
(9) Side Slopes. Side slopes are determined on a case-by-case basis considering roadside development and right-
of-way restrictions.
GEOMETRIC DESIGN CRITERIA FOR URBAN TWO-WAY COLLECTORS (New Construction/Reconstruction)
Footnotes for Figure 32-2G
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Design Volume (ADT / DHV)
One-Way
DHV 1450 - 2150 (1)
OWS-3
20 Years
30 mph – 40 mph
Desired C / Minimum D
3
Desired 12’
Minimum 10’
See Section 42-3.02
Desired 10’
Minimum 8’
Desired 12’
Minimum 10’
1.5% - 2.0% (5a)
(5b)
B-6.12, B-6.18, or B-6.24 CC&G (6)
Desired 5’ / Minimum 4’
1.5’
---
---
---
ADT = Average Daily Traffic / DHV = Design Hourly Volume / OWS = One-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN ONE-WAY COLLECTORS
(New Construction/Reconstruction)
Figure 32-2H (US Customary)
One-Way
ADT > 5000
and DHV < 1450 (1)
OWS-2
2
Desired 12’
Minimum 10’ (3)
1.5% - 2.0%
One-Way
ADT < 5000
Current
30 mph
Desired 11’
Minimum 10’
Minimum 8’
Desired 11’
Minimum 10’
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed * (2)
Level of Service (LOS) *
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (4)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Sidewalk Width (7)
Obstruction Free Zone * (8)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Side Slope (9)
(Maximum)
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3
Design Volume (ADT / DHV)
One-Way
DHV 1450 - 2150 (1)
OWS-3
20 Years
50 km/h – 60 6m/h
Desired C / Minimum D
3
Desired 3.6 m
Minimum 3.0 m
See Section 42-3.02
Desired 3.0
Minimum 2.4
Desired 3.6 m
Minimum 3.0 m
1.5% - 2.0% (5a)
(5b)
B-15.30, B-15.45, or B-15.60 CC&G (6)
Desired 1.5 m / Minimum 1.2 m
450 mm
---
---
---
ADT = Average Daily Traffic / DHV = Design Hourly Volume / OWS = One-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN ONE-WAY COLLECTORS
(New Construction/Reconstruction)
Figure 32-2H (Metric)
One-Way
ADT > 5000
and DHV < 1450 (1)
OWS-2
2
Desired 3.6 m
Minimum 3.0 m (3)
1.5% - 2.0%
One-Way
ADT < 5000
Current
50 km/h
Desired 3.3 m
Minimum 3.0 m
Minimum 2.4 m
Desired 3.3 m
Minimum 3.0 m
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed * (2)
Level of Service (LOS) *
Number of Travel Lanes
Travel Lane
Travel Lane
(Shared with Bicycles)
Parking Lane (4)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Sidewalk Width (7)
Obstruction Free Zone * (8)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Side Slope (9)
(Maximum)
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BUREAU OF LOCAL ROADS & STREETS
32-2-24 GEOMETRIC DESIGN TABLES August 2016
Footnotes:
(1) Traffic Volumes. The design hourly volumes (DHV) are calculated using a PHF = 1.0; these values may be
adjusted using local peak-hour factors. For more information, see the Highway Capacity Manual.
(2) Design Speed. A 45 mph (70 km/h) design speed may be used in fringe areas and outlying business districts.
(3) Surface Width. The minimum surface width is 30 ft (9.0 m) face-of-curb to face-of-curb.
(4) Parking Lane. The minimum width of the parking lane is 8 ft (2.4 m) and includes the gutter width.
(5) Cross Slope.
a. Use 2.0% for lanes away from the crown.
b. For turn lanes use 2.0% or greater. If the turn lane is adjacent to the crown, use 1.5%.
(6) Gutter Width. Under restricted conditions, the gutter width adjacent to the edge of the turn lane may be
eliminated adjacent to a 12 ft (3.6 m) lane.
(7) Sidewalk Width. Include a 2 ft to 3 ft (600 mm to 1.0 m) buffer strip between the curb and sidewalk. For
sidewalks without a buffer strip, a minimum 6 ft (1.8 m) sidewalk width behind the curb must be provided.
(8) Obstruction-Free Zone. Distance is measured from the face of the curb. Hazards behind curbs should be
located outside of the clear zone shown for uncurbed roadways as discussed in Section 35-2.02(f).
(9) Side Slopes. Side slopes are determined on a case-by-case basis considering roadside development and right-
of-way restrictions.
GEOMETRIC DESIGN CRITERIA FOR URBAN ONE-WAY COLLECTORS (New Construction/Reconstruction)
Footnotes for Figure 32-2H
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5
Design Volume (ADT)
ADT > 5000
TWS-2 / OWS-2
20 Years
30 mph
D
2
Minimum 12’ (2)
See Section 42-3.02
Minimum 8’
Desired 12’
Minimum 10’
1.5% - 2.0%
(4)
B-6.12, B-6.18, or B-6.24 CC&G (5)
Desired 5’ / Minimum 4’
1.5’
---
---
---
ADT = Average Daily Traffic / TWS = Two-Way Street / OWS = One-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN LOCAL STREETS
(New Construction/Reconstruction)
Figure 32-2I (US Customary)
1000 - 5000
Current
Minimum 11’
Desired 11’
Minimum 10’
ADT < 1000
30 mph (1)
Minimum 10’
10’
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed *
Level of Service (LOS) *
Number of Travel Lanes
Travel Lane *
Travel Lane
(Shared with Bicycles)
Parking Lane (3)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Sidewalk Width
Obstruction Free Zone * (6)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Side Slope (7)
(Maximum)
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Design Volume (ADT)
ADT > 5000
TWS-2 / OWS-2
20 Years
50 km/h
D
2
Minimum 3.6 m (2)
See Section 42-3.02
Minimum 2.4 m
Desired 3.6 m
Minimum 3.0 m
1.5% - 2.0%
(4)
B-15.30, B-15.45, or B-15.60 CC&G (5)
Desired 1.5 m / Minimum 1.2 m
450 mm
---
---
---
ADT = Average Daily Traffic / TWS = Two-Way Street / OWS = One-Way Street
GEOMETRIC DESIGN CRITERIA FOR URBAN LOCAL STREETS
(New Construction/Reconstruction)
Figure 32-2I (Metric)
1000 - 5000
Current
Minimum 3.3 m
Desired 3.3 m
Minimum 3.0 m
ADT < 1000
50 km/h (1)
Minimum 3.0 m
3.0 m
Manual
Section
---
27-6.02
27-5.02
27-6.04
31-1.02
31-1.01
42-3.02
31-1.04
31-1.03
31-1.08
31-1.07
31-2.02
35-2
31-2.03
* Controlling design criteria (see Section 27-7).
Design Element
Highway Type
Design Forecast Year
Design Speed *
Level of Service (LOS) *
Number of Travel Lanes
Travel Lane *
Travel Lane
(Shared with Bicycles)
Parking Lane (3)
Auxiliary Lane
Travel Lane (Minimum) *
Auxiliary Lanes
Outside Curb and Gutter Type
Sidewalk Width
Obstruction Free Zone * (6)
Cut Section (Curbed)
Rock Cut
Fill Section (Curbed)
Surface Width *
Cross Slope
Side Slope (7)
(Maximum)
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BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-2-27
Footnotes:
(1) Design Speed. A 20 mph (30 km/h) design speed may be used where the posted speed limit is 20 mph.
(2) Surface Width. The minimum surface width is 30 ft (9.0 m) face-of-curb to face-of-curb.
(3) Parking Lane. The minimum width of the parking lane is 8 ft (2.4 m) and includes the gutter width.
(4) Cross Slope. Use 2.0% minimum for lanes away from the crown.
(5) Curb and Gutter. Under restricted conditions, the gutter width adjacent to the edge of an 11 ft (3.3 m) turn lane
may be eliminated. A shallow gutter may be used in place of CC&G.
(6) Obstruction-Free Zone. Distance is measured from the face of the curb. Hazards behind curbs should be
located outside of the clear zone shown for uncurbed roadways as discussed in Section 35-2.02(f).
(7) Side Slopes. Side slopes are determined on a case-by-case basis considering roadside development and right-
of-way restrictions.
GEOMETRIC DESIGN CRITERIA FOR URBAN LOCAL STREETS (New Construction/Reconstruction)
Footnotes for Figure 32-2I
BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-3-1
32-3 ALIGNMENT CRITERIA
This Section presents the new construction/reconstruction alignment criteria for various rural
and urban facilities based on design speed. Alignment tables are provided for the following:
Figure 32-3A “Alignment Criteria for Rural Two-Lane Highways,”
Figure 32-3B “Alignment Criteria for Suburban/Urban Arterials,” and
Figure 32-3C “Alignment Criteria for Urban Collectors/Local Streets.”
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Design Speed
60 mph
570’
2135’
665’
1200’
1330’
1500’
8%
232’
184’
135’
151
136
1628
5%
6%
Desirable 0.5% / Minimum 0.0%
(1) Intersection Sight Distance. Table values are for passenger cars at a stop-controlled intersection on a level grade based on the design speed for the major road.
Increase these distances 10% for grades > 3.0% on the minor road.
(2) Superelevation Transition Length. Superelevation transition rates will vary according to design speed, radii, and superelevation rates. Table values are based on
the minimum radii for the given design speed, maximum superelevation rate, 11 ft travel lanes, and a 1.5% cross slope for the normal crown section.
(3) Maximum Grade.
a. Grades 1.0% steeper may be used for existing roadways to remain in place.
b. Grades 1.0% to 2.0% steeper may be used on local roads and low-volume rural collectors (ADT < 400).
ALIGNMENT CRITERIA FOR RURAL TWO-LANE HIGHWAYS
Figure 32-3A (US Customary)
55 mph
495’
1985’
610’
960’
1060’
1190’
222’
176’
129’
114
115
1407
6%
7%
50 mph
425’
1835’
555’
758’
833’
926’
209’
165’
121’
84
96
1203
45 mph
360’
1625’
500’
587’
643’
711’
Paved 8% / Aggregate 4%
194’
153’
112’
61
79
943
7%
8%
40 mph
305’
1470’
445’
444’
485’
533’
179’
142’
104’
44
64
772
35 mph
250’
1280’
390’
314’
340’
371’
169’
133’
98’
29
49
585
9%
30 mph
200’
1090’
335’
214’
231’
250’
159’
125’
92’
19
37
424
25 mph
155’
900’
280’
134’
144’
154’
150’
118’
87’
12
26
289
10%
20 mph
115’
710’
225’
76’
81’
86’
141’
111’
81’
7
17
180
8%
11%
Manual
Section
28-1
28-2
28-3
29.2.03
29-3.01
29-3.02
30-2.01
30-2.02
30-2.01
30-1.02
30-1.03
* Controlling design criteria (see Section 27-7).
Design Element
Stopping Sight Distance (SSD) *
Passing Sight Distance (PSD)
Intersection Sight Distance * (1)
emax = 8%
emax = 6%
emax = 4%
Maximum Superelevation Rate *
emax = 8%
emax = 6%
emax = 4%
Crest
Sag
Crest
Level
Rolling
Minimum Grade
Minimum Radii *
Superelevation
Transition Length (2)
Vertical Curvature
(K-values based on SSD) *
Vertical Curvature
(K-values based on PSD)
Maximum Grade * (3)
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-3-3
Design Speed
100 km/h
185 m
670 m
210 m
394 m
437 m
492 m
8%
71 m
56 m
41 m
52
45
520
5%
6%
Desirable 0.5% / Minimum 0.0%
(1) Intersection Sight Distance. Table values are for passenger cars at a stop-controlled intersection on a level grade based on the design speed for the major road.
Increase these distances 10% for grades > 3.0% on the minor road.
(2) Superelevation Transition Length. Superelevation transition rates will vary according to design speed, radii, and superelevation rates. Table values are based on
the minimum radii for the given design speed, maximum superelevation rate, 3.3 m travel lanes, and a 1.5% cross slope for the normal crown section.
(3) Maximum Grade.
a. Grades 1.0% steeper may be used for existing roadways to remain in place.
b. Grades 1.0% to 2.0% steeper may be used on local roads and low-volume rural collectors (ADT < 400).
ALIGNMENT CRITERIA FOR RURAL TWO-LANE HIGHWAYS
Figure 32-3A (Metric)
90 km/h
160 m
615 m
190 m
304 m
336 m
375 m
67 m
53 m
39 m
39
38
438
6%
7%
80 km/h
130 m
540 m
170 m
229 m
252 m
280 m
63 m
50 m
36 m
26
30
338
70 km/h
105 m
485 m
150 m
168 m
184 m
203 m
Paved 8% / Aggregate 4%
57 m
45 m
33 m
17
23
272
7%
8%
60 km/h
85 m
410 m
130 m
113 m
123 m
135 m
52 m
41 m
30 m
11
18
195
50 km/h
65 m
345 m
105 m
73 m
79 m
86 m
47 m
37 m
27 m
7
13
138
9%
40 km/h
50 m
270 m
85 m
41 m
43 m
47 m
45 m
35 m
26 m
4
9
84
10%
30 km/h
35 m
200 m
65 m
20 m
21 m
22 m
42 m
33 m
25 m
2
6
46
8%
11%
Manual
Section
28-1
28-2
28-3
29.2.03
29-3.01
29-3.02
30-2.01
30-2.02
30-2.01
30-1.02
30-1.03
* Controlling design criteria (see Section 27-7).
Design Element
Stopping Sight Distance (SSD) *
Passing Sight Distance (PSD)
Intersection Sight Distance * (1)
emax = 8%
emax = 6%
emax = 4%
Maximum Superelevation Rate *
emax = 8%
emax = 6%
emax = 4%
Crest
Sag
Crest
Level
Rolling
Minimum Grade
Minimum Radii *
Superelevation
Transition Length (2)
Vertical Curvature
(K-values based on SSD) *
Vertical Curvature
(K-values based on PSD)
Maximum Grade * (3)
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Design Speed
60 mph
570’
665’
1330’
1500’
---
6%
184’
135’
---
151
136
5%
6%
Desirable 0.5% / Minimum 0.3% (with Curb and Gutter)
(1) Intersection Sight Distance. Table values are for passenger cars at a stop-controlled intersection on a level grade based on the design speed for the major
road. Increase these distances 10% for grades > 3.0% on the minor road.
(2) Minimum Radii. For urban streets with design speeds less than 50 mph, use emax = 4% (low speed).
(3) Superelevation Rate. For urban/suburban reconstruction projects, existing horizontal curves may remain in place with a superelevation rate up to 6.0%.
(4) Superelevation Transition Length. Superelevation transition rates will vary according to design speed, radii, and superelevation rates.
a. Values are based on the minimum radii for the given design speed, maximum superelevation rate of 6.0%, 12 ft travel lanes, and a 1.5% cross slope for
the normal crown section.
b. Values are based on the minimum radii for the given design speed, maximum superelevation rate of 4.0%, 11 ft travel lanes, and a 1.5% cross slope for
the normal crown section.
ALIGNMENT CRITERIA FOR SUBURBAN / URBAN ARTERIALS
Figure 32-3B (US Customary)
55 mph
495’
610’
1060’
1190’
---
176’
129’
---
114
115
50 mph
425’
555’
833’
926’
---
165’
121’
---
84
96
6%
7%
45 mph
360’
500’
643’ (2)
711’
711’
4% (3)
153’
112’
107’
61
79
40 mph
305’
445’
485’ (2)
533’
533’
142’
104’
99’
44
64
7%
8%
35 mph
250’
390’
340’ (2)
371’
371’
133’
98’
95’
29
49
30 mph
200’
335’
231’ (2)
250’
250’
125’
92’
89’
19
37
8%
9%
Manual
Section
28-1
28-3
29.2.03
29-4.03
29-3.01
29-3.02
29-4.04
30-2.01
30-2.02
30-1.02
30-1.03
* Controlling design criteria (see Section 27-7).
Design Element
Stopping Sight Distance (SSD) *
Intersection Sight Distance * (1)
emax = 6%
(Open Roadway)
emax = 4%
(Open Roadway)
emax = 4%
(Low speed)
Maximum Superelevation Rate *
emax = 6% (4a)
(Open Roadway)
emax = 4% (4b)
(Open Roadway)
emax = 4% (4b)
(Low speed)
Crest
Sag
Level
Rolling
Minimum Grade
Minimum Radii *
Superelevation
Transition Length
Vertical Curvature
(K-values based on SSD) *
Maximum Grade *
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-3-5
Design Speed
100 km/h
185 m
210 m
437 m
492 m
---
6%
56 m
41 m
---
52
45
5%
6%
Desirable 0.5% / Minimum 0.3% (with Curb and Gutter)
(1) Intersection Sight Distance. Table values are for passenger cars at a stop-controlled intersection on a level grade based on the design speed for the major
road. Increase these distances 10% for grades > 3.0% on the minor road.
(2) Minimum Radii. For urban streets with design speeds less than 80 km/h, use emax = 4% (low speed).
(3) Superelevation Rate. For urban/suburban reconstruction projects, existing horizontal curves may remain in place with a superelevation rate up to 6.0%.
(4) Superelevation Transition Length. Superelevation transition rates will vary according to design speed, radii, and superelevation rates.
a. Values are based on the minimum radii for the given design speed, maximum superelevation rate of 6.0%, 3.6 m travel lanes, and a 1.5% cross slope for
the normal crown section.
b. Values are based on the minimum radii for the given design speed, maximum superelevation rate of 4.0%, 3.3 m travel lanes, and a 1.5% cross slope for
the normal crown section.
ALIGNMENT CRITERIA FOR SUBURBAN / URBAN ARTERIALS
Figure 32-3B (Metric)
90 km/h
160 m
190 m
336 m
375 m
---
53 m
39 m
---
39
38
80 km/h
130 m
170 m
252 m
280 m
---
50 m
36 m
---
26
30
6%
7%
70 km/h
105 m
150 m
184 m (2)
203 m
203 m
4% (3)
45 m
33 m
33 m
17
23
60 km/h
85 m
130 m
123 m (2)
135 m
135 m
41 m
30 m
30 m
11
17
7%
8%
50 km/h
65 m
105 m
79 m (2)
86 m
86 m
37 m
27 m
28 m
7
12
8%
9%
Manual
Section
28-1
28-3
29.2.03
29-4.03
29-3.01
29-3.02
29-4.04
30-2.01
30-2.02
30-1.02
30-1.03
* Controlling design criteria (see Section 27-7).
Design Element
Stopping Sight Distance (SSD) *
Intersection Sight Distance * (1)
emax = 6%
(Open Roadway)
emax = 4%
(Open Roadway)
emax = 4%
(Low speed)
Maximum Superelevation Rate *
emax = 6% (4a)
(Open Roadway)
emax = 4% (4b)
(Open Roadway)
emax = 4% (4b)
(Low speed)
Crest
Sag
Level
Rolling
Minimum Grade
Minimum Radii *
Superelevation
Transition Length
Vertical Curvature
(K-values based on SSD) *
Maximum Grade *
BU
RE
AU
OF
LO
CA
L R
OA
DS
& S
TR
EE
TS
32
-3-6
G
EO
ME
TR
IC D
ES
IGN
TA
BL
ES
A
ugu
st 2
016
Design Speed
45 mph
360’
500’
711’
1000’
4%
107’
61
79
8%
9%
Desirable 0.5% / Minimum 0.3% (with Curb and Gutter)
(1) Intersection Sight Distance. Table values are for passenger cars at a stop-controlled intersection on a level grade based on the design speed of the major
road. Increase these values 10% for grades > 3.0% on the minor road.
(2) Superelevation Rate. For reconstruction projects, existing horizontal curves may remain in place with a superelevation rate up to 6.0%.
(3) Superelevation Transition Length. Superelevation transition rates will vary according to design speed, radii, and superelevation rates. Table values are based
on the minimum radii for the given design speed, maximum superelevation rate, 11 ft travel lanes, and a 1.5% cross slope for the normal crown section.
(4) Maximum Grade.
a. Collectors. Grades 1.0% to 2.0% steeper may be used on low-volume collectors and on grades less than 500 ft in length.
b. Local. Grades on local residential streets should be less than 15.0%.
ALIGNMENT CRITERIA FOR URBAN COLLECTORS / LOCAL STREETS
Figure 32-3C (US Customary)
40 mph
305’
445’
533’
736’
99’
44
64
9%
10%
35 mph
250’
390’
371’
495’
95’
29
49
30 mph
200’
335’
250’
324’
89’
19
37
11%
25 mph
155’
280’
154’
194’
71’
12
26
12%
20 mph
115’
225’
86’
105’
74’
7
17
Manual
Section
28-1
28-3
29-4.03
29-3.01
29-4.04
30-2.01
30-2.02
30-1.02
30-1.03
* Controlling design criteria (see Section 27-7).
Design Element
Stopping Sight Distance (SSD) *
Intersection Sight Distance * (1)
emax = 4%
(Low speed)
Minimum Radii w/ Normal Crown (Low speed)
Maximum Superelevation Rate * (2)
emax = 4%
(Low speed)
Crest
Sag
Level
Rolling
Minimum Grade
Minimum Radii *
Superelevation
Transition Length (3)
Vertical Curvature
(K-values based on SSD) *
Maximum Grade * (4)
BU
RE
AU
OF
LO
CA
L R
OA
DS
& S
TR
EE
TS
Au
gu
st 2
016
GE
OM
ET
RIC
DE
SIG
N T
AB
LE
S
32
-3-7
Design Speed
70 km/h
105 m
150 m
203 m
286 m
4%
33 m
17
23
8%
9%
Desirable 0.5% / Minimum 0.3% (with Curb and Gutter)
(1) Intersection Sight Distance. Table values are for passenger cars at a stop-controlled intersection on a level grade based on the design speed of the major
road. Increase these values 10% for grades > 3.0% on the minor road.
(2) Superelevation Rate. For reconstruction projects, existing horizontal curves may remain in place with a superelevation rate up to 6.0%.
(3) Superelevation Transition Length. Superelevation transition rates will vary according to design speed, radii, and superelevation rates. Table values are based
on the minimum radii for the given design speed, maximum superelevation rate, 3.3 m travel lanes, and a 1.5% cross slope for the normal crown section.
(4) Maximum Grade.
a. Collectors. Grades 1.0% to 2.0% steeper may be used on low-volume collectors and on grades less than 150 m in length.
b. Local. Grades on local residential streets should be less than 15.0%.
ALIGNMENT CRITERIA FOR URBAN COLLECTORS / LOCAL STREETS
Figure 32-3C (Metric)
60 km/h
85 m
130 m
135 m
183 m
30 m
11
18
9%
10%
50 km/h
65 m
105 m
86 m
113 m
28 m
7
13
11%
40 km/h
50 m
85 m
47 m
59 m
25 m
4
9
12%
30 km/h
35 m
65 m
22 m
27 m
22 m
2
6
Manual
Section
28-1
28-3
29-4.03
29-3.01
29-4.04
30-2.01
30-2.02
30-1.02
30-1.03
* Controlling design criteria (see Section 27-7).
Design Element
Stopping Sight Distance (SSD) *
Intersection Sight Distance * (1)
emax = 4%
(Low speed)
Minimum Radii w/ Normal Crown (Low speed)
Maximum Superelevation Rate * (2)
emax = 4%
(Low speed)
Crest
Sag
Level
Rolling
Minimum Grade
Minimum Radii *
Superelevation
Transition Length (3)
Vertical Curvature
(K-values based on SSD) *
Maximum Grade * (4)
BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-4-1
32-4 ACRONYMS
This is a summary of the acronyms used within this chapter.
AASHTO American Association of State Highway and Transportation Officials
ADT Average Daily Traffic
BDE Bureau of Design and Environment
C&G Curb & Gutter
CC&G Concrete Curb & Gutter
DHV Design Hourly Volume
HCM Highway Capacity Manual
IDOT Illinois Department of Transportation
LPA Local Public Agency
OWS One Way Street
PSD Passing Sight Distance
SSD Stopping Sight Distance
TWLTL Two Way Left Turn Lane
TWS Two Way Street
BUREAU OF LOCAL ROADS & STREETS
August 2016 GEOMETRIC DESIGN TABLES 32-5-1
32-5 REFERENCES
1. A Policy on Geometric Design of Highways and Streets, AASHTO, 2011.
2. HCM 2010 Highway Capacity Manual, TRB, 2010
3. Chapter 47 “Rural Two-Lane / Multilane State Highways (New Construction /
Reconstruction)”, BDE Manual, IDOT.